O M I C I T 3001 - 3601 · 10 Adjustment of lighting intensity 21 11 Humidification 22 11.1...
Transcript of O M I C I T 3001 - 3601 · 10 Adjustment of lighting intensity 21 11 Humidification 22 11.1...
Apparatus for Phone: ++49/511/824015Scientific and ++49/511/824016Industrial Research Fax: ++49/511/824017
e-mail: [email protected]
Rubarth Apparate GmbHMergenthalerstrasse 8, D-30880 Laatzen, Germany
OPERATING AND
MAINTENANCE INSTRUCTIONS
FOR
COOLED INCUBATORS
TYPE 3001 - 3601
Version E/30-35/12-96
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Table of Contents
Page
1 General View 4
2 General 5
3 Transportation and Storage 5
4 Installation 5
5 Power Supply 6
6 Operation 6
7 Temperature Control 8
7.1 Temperature Controller 8
7.2 Setpoint Control 8
7.3 Programme Control 8
7.4 Programmable Timer for Alternating Temperatures 9
7.5 Example for a Dual Setponit Daily Programme 12
7.6 Example for a Dual Setpoint Weekly Programme 14
8 Temperature Protection 18
8.1 Specimen Protection 18
8.2 Unit Protection 19
9 Lighting 20
10 Adjustment of lighting intensity 21
11 Humidification 22
11.1 Evaporative Humidification 22
11.2 Ultrasonic Humidification 23
11.3 Dehumidification 26
12 Service and Maintenance 27
Concerning the basic unit, please refer to the extra-bold printed chapters.
All further chapters are belonging to options.
Deutsch Diese Bedienungsanleitung ist erhältlich in Deutsch. Version D/30-35/12-96
Français Ce mode d'emploi est disponible en Français. Sur demande!
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ON
d h m
Prog.
1 2 3 4 5 6 7
% rel.F. Co
W2
Gruppe I
Light-Intensity
Helligkeitssteuerung Befeuchtung Entfeuchtung TemperaturwählbegrenzerKühlung
Cooling
Umluft
Air-circulation
Heizung
Heating
Steckdose
Plug socket
Luftumwälzung
Temperature Unit cut-out
Aircirculation
DehumidificationHumidification
Hand/Auto Gruppe II
Zeitschaltuhr Beleuchtung
Timer Light
Group I Group IIManual/Auto
40
45
111213
14
1516
1718
19
20
2122 23 0
109
8
76
5
20
10
010
20 3040
50
60C- +
Rubarth Apparate GmbH
4
56
7
8 910
1
23
4
56
7
8 910
1
23
Lighting(Chapter 9)
Specimen Protection(Chapter 8.1)
Temperature Control(Chapter 7)
Control of LightingIntensity (Chapter 10)
Humidification andDehumidification (Chapter 11)
Adjustable AirCirculation (Chapter 6)
Safety cut-out (4 Amps) fortest room socket (Chapter 6)
Programmable Timer(Chapter 7.4)
Vor Reparaturen am Apparat diesen vom Stromnetz trennenPrior to repairs disconnect unit from mains
Made in Europe
TypType
RefrigerantKältemittel
Nr.
Zul. BetriebsüberdruckAdmissible workingoverpressure
No.
Filling WeightFüllgewicht
Volt
kg
kW A
bar
Hz
ModelBaujahr
Rubarth Apparate GmbHMergenthalerstraße 8, D-30880 Laatzen, Germany
1 2
1 General View
Control Panel
Nameplate
The nameplate is located in the
upper left edge of the door
frame. In case of failures or for
spare-part orders, please indi-
cate the unit type (1) and the
serial no. (2).
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2 GeneralRUMED cooled incubators are producing ideal thermal conditions for quality control and research in science
and industry. Experiences of almost 50 years stand for a maintenance-free construction and result in longevity.
Cooled incubators are fabricated for two different temperature ranges and three unit sizes each can be chosen
from. The options alternating temperature control and programme control, lighting and humidification increase
the unit's universal applicability. Depending on equipment, the units are applicated in zoology, botany,
microbiology, bacteriology, medicine as well as in the artificial aging and testing of electric and electronic
components.
3 Transportation and StorageThe standard domestic shipment of the unit will be effected unpacked in a van. The unit should be
transported carefully in standing position. In case a short-time tilting of the unit should be unavoida-
ble, for reasons of f. ex. passing doors, it might be possible that oil of the cooling machine will enter
into the evaporator. This oil must flow back to the cooling machine. For this reason take care that
after transportations the unit should not be started before expiration of 4 hours. The unit is recommen-
ded to be stored in dry rooms at temperatures between +10°C and +30°C. The shipment within
European countries is mostly effected in stable cartons on a palette. Seaworthy and air-freight cases
are generally conserved for 12 months and the units are welded in an aluminium wrapping. Conden-
sation due to passing of different climatic zones is avoided by drying agent bags which are to be
removed prior to initial starting of the machine.
4 Installation
ModelVolume
[l]
Exterior Dimensions [mm] Maximum load per
Insertion Grid (kg)Height Width Depth
3001 180 1440 (1540)* 610 640 40
3101 250 1810 (1910)* 610 640 40
3201 390 1725 (1825)* 760 750 50
3301 200 1120 760 850 (1020)** 25
3401 320 1600 (1700)* 760 850 (1020)** 25
3501 530 2100 (2050)* 730 800 (970)** 25
3601 1060 2100 (2050)* 1470 800 (970)** 25
* changed height with option movable design
** changed depth with option ultrasonic humidification
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17
Foot adjustmentto the bottom
Foot adjustmentto the top
blockbreak
releasebreak
• Installation places being exposed to direct sunlight, radiators and other thermal sources are to be avoided.
Insufficiently ventilated rooms and room temperatures exceeding +25°C are also unsuitable.
• The distance between the wall and the backside of the unit should be at least 10 cm. Do not cover the
ventilation slots; even a partial covering of the slots may lead to a heat accumulation.
Uncovered ventilation slots are very important for a faultless operation of the cooling machine!
• The floor of the installation place should be even and horizontal. Slight unevennesses can be balanced by
the adjustable foots of the unit.
• Units being equiped with the option "Ultrasonic Humidification" must be installed in such a way, that the test
room bottom is in level position to ensure a correct drain of water.
Model Type of foots Tool
3001/3101/3201 2 adjustable foots
on the front
fork wrench SW22
(width: 22mm)
3301/3401 4 adjustable foots fork wrench SW17
(width: 17mm)
3501 4 adjustable foots turn foot by hand
Option movable
design
not adjustable
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The unit is not explosionproof!Do not store explosive or easily inflammable substances in the test room!
5 Power Supply• Current (A.C.) and voltage at the installation place must coincide with the indications on the name-plate of
the unit. The name-plate can be found at the upper part in the door frame on the left side.
• Connection is to be made to a duly earthed socket (a separately secured socket is recommended).
A multitude of units are equiped with combined universal plugs according to the German or French
standard.
6 OperationIt is recommended to clean the interior of the unit before starting. Refer to the details described in "Defrosting"
and "Cleaning" (chapter 12).
Open the door widely for removal of the insertion grids. The grids must be charged in such a way that a
circulation of the air will not be hindered.
The white rocker switch "Circulating Air" starts the fan and the unit at the same time. Cooling machine and
heating are locked by means of this switch and will be only started when the fan is in operation. On operation
of the fan the white pilot lamp is lighting.
In case the fan is fitted with a potentiometer, the air quantity can be reduced by turning the control knob to the
left.
The red rocker switch "Heating" and the blue rocker switch "Cooling" are to be switched-on.
The refrigerating machine will only start when cooling capacity is requested. On demand of cooling, the
temperature controller switches to the cooling circuit by means of a solenoid valve, and when there is no
request for cooling, it switches to the bypass-circuit. Should the period where no cooling is requested
exceed 3 minutes, the refrigerating machine will be switched-off. The blue pilot lamp will only light-up on request
of cooling capacity (cooling circuit is switched-on), the pilot lamp "heating" will only light-up on request of
heating capacity.
The test room socket (option) is switched-on by means of the yellow rocker switch ("plug socket") and the pilot
lamp is lighting. The test room socket can be charged by max. 4 Amps. In case of an overload or a failure of the
connected unit, the safety cut-out being located next to the switch on the right side will be released. Upon
repair of the failure, the pin of the safety cut-out shall be pressed down again.
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Co
W2
Heating ON Cooling ON
Setpoint
Increase Value
Selector Key
Actual Value
Decrease Value
Programme Runs(if W2 is lighting)
7 Temperature Control
7.1 Temperature Controller
Functioning
The digital temperature controller
can be used as constant value
controller or, with optional acces-
sories, as programme controller.
Temperature sensor is a Pt 100
resistance thermometer, class A.
Further technical details can be
drawn from the PHILIPS Operating
Instructions No. 9499 040 21601.
7.2 Setpoint Control
The temperature controller keeps the test room temperature constant on an adjusted value. Actual value and
setpoint are displayed simultaneously on two different digital displays being located upon another. The upper
digits indicate the actual value, the lower digits the setpoint. The setpoint value can be decreased or increased
by pressing the keys and .
7.3 Programme Control
The option dual setpoint daily programme is achieved by configuration of the temperature controller as
programme controller. This option offers the possibility of a change between two temperatures with
programmable values for the temperature variation speed (ramps). The programme can be started at any
desired moment by the switching command (1 ON) of the timer. The switching command (1 OFF) terminates the
programme. The moment for the switching command OFF results from the running time of the programme.
During the programme cycle "W2" is displayed.
The timer can be operated in the switching modes "Auto", "Permanent ON" and "Permanent OFF". For
programme control, the timer must be switched to position "Auto". For a commutation to setpoint control, the
timer must be switched to "Permanent OFF". The controller will then be operated as setpoint controller and all the
programmed parameters will be kept in the controller as well as in the timer.
As soon as the timer is commutated again to "Auto", the programme control is reactivated (See chapter 7.4
"Programme Timer for Alternating Temperature" -> "Change of Switching Status").
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ON
d h m
Prog.
Time/Response time
Weekday (7=Sunday)
Hours setting
Weekday setting
Time setting
Program entry/recall
Response time number ofthe weekday indicated
(1 ON, 1 OFF, 2 ON usw.)
The point indicatespermanent Control
ON or OFF
Indication of actualswitch position/
switching command
Minutes setting
Override control andpermanent control
1 2 3 4 5 6 7
7.4 Programmable Timer for Alternating Temperatures
General
The digital timer can be operated in the operating modes "daily programme" and "weekly programme". It is
recommended to programme the daily reiterating day-/night temperature change in the operating mode "daily
programme". (The small triangle in the display must aim to 1->7; if not, the "weekly programme" of the timer is
activated. Change of the operating mode is effected by a reset of the timer.
Reset of the Timer and Selection of the Mode "Daily Programme"
Please observe the following four steps exactly for starting the timer in the daily programme mode.
+ + +
d m ONOFFOFF
1 2 3 4 5 6 7
Press the four keys simultaneoulsy to reset the timer (can be read
at the display)
- none - OFFOFF
1 2 3 4 5 6 7
Let the keys loose, and the display test will be finished
+
h OFFOFF
1 2 3 4 5 6 7
Press and hold the key with the clock sign and set the actual
hour by means of the key h.
(our example: 13)
+
m OFFOFF
1 2 3 4 5 6 7
Press and hold the key with the clock sign and set the actual
minutes by means of the key m.
(our example: 48)
After having entered the actual time, let the key with the clock sign loose and the timer will run.
Change-over from Summer- to Winter Time
+
d h press keys simultaneoulsy, and time is put on by an hour (summer time)
+
d m press keys simultaneously, and time is put back by an hour (winter time)
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Change of the Switching Status
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time
(f. ex. 13.48 h) Switching status is "Automatic OFF"
+
m
ON
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will change-over to "PERMANENT ON"
(display indicates a point above ON)
OFFOFF
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will change-over to "PERMANENT OFF"
(display indicates a point above OFF)
OFFOFF
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will again change-over to "AUTOMATIC" (point disappears)
Daily Programme
When the mode "daily programme" is activated, maximum 6 ON- and 6 OFF-commands can be
programmed. However, for one programme cycle only 1 ON- and 1 OFF-command is required. The
command ON starts the programme, the command OFF terminates the programme. At the same time,
a programme reset is effected in the temperature controller, which is the only possibility for a further
programme start.
Correspondingly, the time delay between an OFF-command and the next ON-command must be at
least 1 minute, otherwise the programme reset cannot be effected and the programme controller will
not change to the next programme cycle (i. e. in the operating mode "daily programme" it is possible to
run a four-hour programme cycle six times per day maximum).
The following table shows the programming of the response times for our dual setpoint programme
example.
Programming On- and Off-Commands (Operating Mode "Daily Programme")
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time
(f. ex. 13.48 h)
Prog. ON
1 2 3 4 5 6 7
Press once, to call the programming mode
(Here: f. ex. not yet programmed)
or
h m ON
1 2 3 4 5 6 7
Enter time for the command 1 ON by means of the keys hand m (Here: f. ex. 6.00 h)
Prog. OFFOFF
1 2 3 4 5 6 7
Press once, to call the command 1-OFF
(Here: f. ex. not yet programmed)
or
h m OFFOFF
1 2 3 4 5 6 7
Enter time for the command 1 OFF by means of the keys hand m (Here: f. ex. 21.00 h)
Prog.There are no further switching commands required for our exampleprogramme! If requested, all other switching commands can be calledsuccessively on pressing the key Prog.(2 OFF, 3 ON, 3 OFF, 4 ON, 4 OFF, 5 ON, 5 OFF, 6 ON, 6 OFF ☛after 6 OFF, 1 ON 1 OFF etc. will be repeated)
OFFOFF
1 2 3 4 5 6 7
Press once, to terminate the programming mode and toreturn to the normal display (If there will be no entry within 30 sec., the
display will automatically return to actual time).
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A correct execution of the programme is based on the condition, that only the required
ON-/OFF-commands have been programmed. When you are not sure, if you have programmed
unintentionally switching commands which are not required and which may disturb the programme flow,
you can visually check the commands by calling them on the display.
Display of the Programmed ON-/OFF-Commands
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time
(f. ex. 13.48 h)
Prog. ON
1 2 3 4 5 6 7
Press once, to call the programming mode. The command
1 ON will be displayed (Example programmed to 6.00 h)
Prog. OFFOFF
1 2 3 4 5 6 7
Press once, to call the command 1-OFF
(Example programmed to 21.00 h)
Prog. ON
1 2 3 4 5 6 7
Press once, to call the command 2-ON
(Here: f. ex. not yet programmed)
Prog.If requested, all other switching commands can be called successively on
pressing the key Prog.
(2 OFF, 3 ON, 3 OFF, 4 ON, 4 OFF, 5 ON, 5 OFF, 6 ON, 6 OFF ☛after 6 OFF, 1 ON 1 OFF etc. will be repeated)
OFF
1 2 3 4 5 6 7
Press once, to leave the display mode and to return to the
normal display (If there will be no entry within 30 sec., the display will
automatically return to actual time).
Modifying or Cancelling the Programmed ON-/OFF-Commands
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time
(f. ex. 13.48 h)
Prog. ON
1 2 3 4 5 6 7
Press the key PROG several times until the switching command
to be modified is displayed (Example: press 3 times to call 2
ON)
or
h m
ON
1 2 3 4 5 6 7
Modify the desired time by means of the keys h and m
(Here: f. ex. modification to 22.45 h)
ON
1 2 3 4 5 6 7
or delete the command 2-ON by pressing the keys h and m
simultaneously
Prog.Further switching commands to be modified or deleted are called by means
of the key PROG and can be modified or deleted according to the above
mentioned procedure.
OFFOFF
1 2 3 4 5 6 7
Press once, to terminate the programming mode and to
return to the normal display (If there will be no entry within 30
sec., the display will automatically return to actual time).
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Dual Setpoint Daily Programme
0
5
10
15
20
25
30
35
Co
120 min 660 min 120 min
SP2
Pt2 Pt3 Pt4
SP
SP3
SP4SP
Test RoomTemperature
Excess TemperatureControl TWW
Low TemperatureControl TWW
ProgrammeSTART
ProgrammeEND
10 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 hour of the day
ON
1 2 3 4 5 6 7
OFF
1 2 3 4 5 6 7ONOFF OFF
Switching Status ofProgramme Timer
(=SP)
(=SP3)
7.5 Example for a Dual Setpoint Daily Programme
Segment
Function Night
TemperatureHeating
Day
TemperatureCooling
Night
Temperature
SP (0C)
Pt (min)
Switching
Command TimerON
1 2 3 4 5 6 7
OFFOFF
1 2 3 4 5 6 7
Switching Status OFF ON OFF
The moment for the command 1 OFF is calculated: time end + time start + Pt2 + Pt3 + Pt4,
i. e. our example: 6.00 h + 120 min + 660 min + 120 min = 6.00 h + 15 h (3 h p.m.) = 21.00 h (9 h p.m.)
ATTENTION: If the time for the instruction OFF had not been chosen correctly, the programme might
be aborted!
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Entry of Programme Data
orAdjustment of value SP
(acc. to our example: 20 °C)
Push key until SP2 is displayed
orAdjustment of value SP2
(acc. to our example 30 °C)
Push once, Pt2 will be displayed
orAdjustment of value Pt2
(acc. to our example 120 min)
Push once, SP3 will be displayed
orAdjustment of value SP3
(acc. to our example 30 °C)
Push once, Pt3 will be displayed
orAdjustment of value Pt3
(acc. to our example 660 min)
Push once, SP4 will be displayed
orAdjustment of value SP4
(acc. to our example 20 °C)
Push once, Pt4 will be displayed
orAdjustment of value Pt4
(acc. to our example 120 min)
Push once, SP5 will be displayed
Adjustment of value SP5 (is not required for our example - so
press key until ---- will be displayed)
Push once, Pt5 will be displayed
Adjustment of value Pt5 (is not required for our example - so
press key until ---- will be displayed)
After approx. 30 sec. waiting time, the controller switches automatically to the display setpoint/actual
value! (If this occurs unintenionally during data entry, repeat the procedure from the beginning).
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7.6 Example for a Dual Setpoint Weekly Programme
Most of the temperature programmes with a duration of less than 24 h can be realized in the operating
mode "daily programme". However, a programme with for example a duration of 36 h, an reiterating
cycle of 16 h, or a programme execution on defined week-days is only possible in the operating mode
"weekly programme". The operating mode of the clock (timer) can be changed by a reset of the timer.
Reset of the Timer and Selection of the Mode "Weekly Programme"
Please observe the following five steps exactly for starting the timer in the weekly programme mode.
+ + +
d m ONOFFOFF
1 2 3 4 5 6 7
Press the four keys simultaneoulsy to reset the timer
(can be read at the display)
- none - OFFOFF
1 2 3 4 5 6 7
Let the keys loose, and the display test will be finished
+
dOFFOFF
1 2 3 4 5 6 7
Press and hold the key with the clock sign and set the actual
day by means of the key d
1=Monday, 2=Tuesday usw. (our example 5 for friday)
+
h OFF
1 2 3 4 5 6 7
Press and hold the key with the clock sign and set the actual
hour by means of the key h. (our example: 13)
+
m OFFOFF
1 2 3 4 5 6 7
Press and hold the key with the clock sign and set the actual
minutes by means of the key m. (our example: 48)
After having entered the actual time, let the key with the clock sign loose and the timer will run in
the operating mode "weekly programme".
In the operating mode "Weekly Programme", each 4 ON- and 4 OFF-comands can be programmed. For
either of these switching commands the week-day for execution is to be programmed (random
selection, i. e. any desired combination of week-days is possible).
For programming of the timer, as for ex. change-over from summer- to winter time, or calling or deleting
of switching commands, refer to chapter "Programmable Timer for Alternating Temperatures". Observe,
that programming of the ON-/OFF-commands requires programming of the respective week-days for
execution of the commands.
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Dual Setpoint Weekly Programme
0
-5
5
10
15
20
25
30
35
40
45
50
Co
Test RoomTemperature
Excess TemperatureControl TWW
Low TemperatureControl TWW
018 6 12 18 0 6 12 18 0 6 12 18 0 6 12 18 0 6 12 18 0 Uhr
ON ON ON ON ON ON ONOFF OFF OFF OFF OFF OFF OFF OFF
Switching Status ofProgramme Timer
Programme Cycle
SaturdayFriday Sunday Monday Tuesday Wednesday
Dual Setpoint Weekly Programme (1st Cycle)
0
-5
5
10
15
20
25
30
35
40
45
50
Co
Pt3 = 270 min Pt5 = 300 min
Pt2 = 30 min Setpoint JumpPt4 = 60 min
SP2 SP2SP3
SP4 SP5
SPSPTest RoomTemperature
Excess TemperatureControl TWW
Low TemperatureControl TWW
ProgrammeSTART
ProgrammeEND
10 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 hour of the day
ON ONOFF OFF
Switching Status ofProgramme Timer
Saturday
ON
1 2 3 4 5 6 7
OFF
1 2 3 4 5 6 7
ON
1 2 3 4 5 6 7
Our following example describes the programming of a complicated weekly programme. Our example
uses a 16 h-cycle being repeated 7 times running. Programming of the parameters for the temperature
controller corresponds to the programming described in the chapter "Dual Setpoint Daily Programme".
Programming of the switching commands for the timer are explained subsequently to the example.
Note: Just as in the operating mode "daily programme", the switching commands for the clock cannot
be executed retroactively!
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Segment
Function Normal
TemperatureHeating Heat Load Cooling
Refrigerating
Load
Normal
Temperature
SP (0C)
Pt (min)
Switching
Command Timer:ON
1 2 3 4 5 6 7
Cycle: + + OFFOFF
1 2 3 4 5 6 7
ON
1 2 3 4 5 6 7
Cycle: + OFFOFF
1 2 3 4 5 6 7
ON
1 2 3 4 5 6 7
Cycle: + OFFOFF
1 2 3 4 5 6 7
Switching Status of
TimerOFF ON OFF
Execution of 7 cycles with 4 different ON- and OFF-response times each is only possible by the summarization
of switching commands (so-called blocking). In our example only 3 ON- and OFF-response times each are
required, because the programme is symmetric to 48 h (3 * 16h = 48 h).
The required ON-switching commands (sunday: 6.00 h, monday: 6.00 h and wednesday: 6.00 h) are
summarized to one timer switching command 1-ON.
This summarization (blocking) offers the possibility of rather complex programmes (same time for different
week-days ☛ only 1 switching command).
To avoid a premature programme start on termination of programming or during programming of a
complicated programme, the timer can be switched to manual mode.
Change of the Switching Status
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time (f. ex. 13.48 h)
Switching status is "Automatic OFF"
+
m
ON
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will change-over to "PERMANENT ON" (display indicates a
point above ON)
OFFOFF
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will change-over to "PERMANENT OFF" (display indicates a
point above OFF)
OFFOFF
1 2 3 4 5 6 7
Press and hold key m and press key Hand once. The switching
status will again change-over to "AUTOMATIC" (point disappears)
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Programming, Modifying or Deleting ON-/OFF-commands (Weekly Programme)
OFFOFF
1 2 3 4 5 6 7
Clock indicates the actual time
(f. ex. 13.48 h)
Prog. ON
1 2 3 4 5 6 7
Press the key PROG several times until the switching command
to be modified is displayed (Example: press once to call 1 ON)
or
d ON
1 2 3 4 5 6 7
Press key d once, and a flashing arrow will be displayed above
1. Position this arrow above the desired week-day for execution
of the switching command using key d. Acknowledge by means
of the key Hand, and the arrow will stop flashing. Press key d for
selection of further week-days where switching commands are
to be executed and acknowledge by pressing key Hand. If the
flashing arrow will be positioned above an already programmed
arrow, this arrow will be deleted automatically, or the already
programmed arrow can be acknowlegded by pressing key
Hand. Programming of the week-days with switching commands
is correct, when all the desired week-days are marked with a
non-flashing arrow.
or
h m
ON
1 2 3 4 5 6 7
Programme the command 1-ON to the desired time by means
of the keys h and m.
(Here : f. ex. 6.00 h)
ON
1 2 3 4 5 6 7
or delete the command 1-ON by pressing keys h and m
simultaneously and repeat programming of the week-day.
Prog.Use key Prog. for selection of possibly desired further switching commands to be
programmed or deleted and refer to the above description.
OFFOFF
1 2 3 4 5 6 7
Press once, to terminate the programming mode and to return
to the normal display (If there will be no entry within 30 sec., the display will
automatically return to actual time).
Execution of the programme will only be effected, if the clock is in position "Automatic". If the clock had been
switched to "Permanent OFF" for programming, switch-over to "Automatic" for programme execution.
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010
20 3040
50
60C- +
Rubarth Apparate GmbH
1
8 Temperature Protection
8.1 Specimen Protection
The unit is equiped with a freely adjustable temperature
selector control (TWW) for protection of the specimen to be
tested. The temperature controller avoids any deviation
from the ajusted temperature range possibly occuring due
to malfunction. In case of overtemperature or insufficient
temperature, the TWW switches-off the cooling machine
and all thermal sources (as circulating fan, lighting,
humidification and socket). As long as there is an
overtemperature or insufficient temperature in the test
room, an acoustic signal warns from supercooling or
superheating. Reconnnection is effected automatically
when the test room temperature reaches the preadjusted
temperature range. The acoust ic alarm can be
switched-off by the main switch or by decreasing the value
of the insufficent temperature limitation or by increasing the value of the overtemperature limitation.
The limit values of the temperature range being adjusted at the temperature selector control should always be
5 °C below respectively above the temperatures being adjusted at the temperature controller.
Temperature blue pointer red pointer
Setpoint Control +23 °C +18 °C +28 °C
Programme control +20 °C/+30 °C +15 °C +35 °C
Adjustment of the Temperature Range:
• Unscrew the cover anticlockwise
• Set the blue pointer with the key side (1) to the desired value of the low temperature
disconnection by turning the green ring
• Set the red pointer with the key side (2) to the desired value of the overtemperature
disconnection by turning the brass screw
• Screw on the cover after having adjusted
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60
3
1
2Any manipulation on this protection device or the mounting of a fuse witha higher releasing temperature than +60 °C will destroy the unit and willresult in a loss of guarantee claims.
8.2 Unit Protection
The unit is equiped with an overtemperature protection. The measuring sensor is located
in the rear test room on the right side below the ceiling. In case of overtemperature the
fuse (3) bursts. The unit remains switched-off and an acoustic alarm is released
additionally.
Replacement of the Fuse:
• Hold fast the shaft (1) and unscrew the knurled screw (2).
• Carefully remove the glass splinters out of the knurled screws (2) by knocking.
• Insert the spare fuse with a releasing temperature according to the figure in the margin
into the knurled screw (2). The releasing temperature is marked on the shaft of the fuse
(3).
• Hold fast the shaft (1) and jam in the knurled screw (2) against the spring pressure until
the thread gets hold and screw it on.
After response of the unit protection and prior to a new start of the unit, possible failures
should be detected.
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Gruppe I Hand/Auto Gruppe II
Zeitschaltuhr Beleuchtung
Timer Light
Group I Group IIManual/Auto
1 2 3
45
50
111213
14
1516
1718
19
20
2122 23 0
109
8
76
5
9 Lighting
General
The lighting can be switched in two groups
(standard) to reach different luminous intensity
values (Exception: If only 1 lamp is mounted, it will
be switched over group I and the switch for
group II will be of no function). A photoperiod
can be run by means of the timer.
Adjustment of the Actual Time
• Detach de plastic cover
• Adjust the actual time ( here 13.18 h = 01.18
p.m.) by means of the turning knob in
clockwise direction. Hours can be read at the
arrow of the outer scale and minutes on the
arrow of the inner scale
Programming of the Switching Times
• Light ON - Set the green nose at the desired
switching-on time
(here: 08.00 h = 08.00 a.m.)
• Light OFF - Set the red nose at the desired
s w i t c h i n g - o f f t i m e ( h e r e : 1 8 . 0 0 h =
06.00 p.m.)(spare slid set with 4 pcs. spare slids
can be found in timer at the upper edge on
the right side)
• Reattach the plastic cover
Operating Mode Switch Position
Steady burning light Switch (2) in position hand (position I)
Photo period Switch (2) in position automatic (position 0)
Light intensity Switch (1) Switch (3)
No lighting Position 0 Position 0
Group I ☛ 50% Position I Position 0
Group II ☛ 50% Position 0 Position I
Group I + Group II ☛ 100% Position I Position I
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Replacement of the Fluorescent Lamps
• Unplug the mains plug of the unit
• Open the unit door widely and remove the insertion grids
• Unscrew the slides of the moisture-proof lampholders
(Caution: Upon a certain operation time the fluorescent lamps are hot!)
• Screw the fluorescent lamp into the lamp holder until the contact pins face the front
• Withdraw the fluorescent lamp
• Insert the new fluorescent lamp (20 or 40 watt, 38 mm diameter, in the desired colour)
(Caution: Black-light might affect the test room being made from plastic material due to the high ultraviolet
radiation!)
• Turn tube by two notches onto one direction and tighten the slides fastly
• Replace starter in the switch cabinet (not applicable with continuous lighting control)
• For replacement of a fluorescent lamp 18 or 36 watt, 26 mm diameter use other slides to avoid the loss of
the moisture-proof characteristics
• Reconnect the unit to mains
10 Adjustment of lighting intensityThe option lighting intensity allows a continuously adjustable intensity in the range of approx. 20 to 100 % of the
maximum lighting intensity.
The control unit is located at the left side of the lighting timer. Turn the control knob to the left until the
push-to-lock position OFF and to the right in direction of the arrow when an increase of the lighting intensity is
desired.
When replacing the fluorescent tubes, observe that the tubes are to be executed with an high resistive
component and with vacuum metallized igniters or with a capacitive iginition aid along the lamp surface.
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intake
overflow
90
80
70
60
50
40
30o
o rel.F.
11 Humidification
11.1 Evaporative Humidification
General
The air humidifier operates according to the evaporation principle and attains a water temperature of approx.
70 °C. The maximum evaporative power amounts to approx. 200g per hour. The relative humidity is controlled
by a hygrostat. If possible, the water supply should be automatic. If a water intake and outlet is not available,
the water supply can also be effected manually.
Commissioning
• Loosen fixing device of the cable clamp on the humidifier bottom.
• Uncoil the desired cable length.
• Reattach the cable by means of the fixing device.
• Place the humidifier onto the test room bottom. (Do not touch
the test room walls or deposit objects on the humidifier!)
• Pull the connection hose level regulator/humidifier over the hose nozzles at
the test room wall and the humidifier and fix it by means of the hose
nozzles.
• Plug-in the shock-proof plug of the humidifier into the socket.
Automatic Filling
• Connect the water intake of the level regulator to the drinking water
supply by means of a hose.
• Connect water overflow to outlet.
• Adjust the water quantity at the water cock of the customer until the water
penetrates from the overflow in droplets.
• Adjust the water overflow by shifting the overflow pipe in the rubber until
the water level in the humidifier vessel is 1 cm below the cover grid.
Manual Filling (if water intake and outlet are not availble)
• Pull the water overflow pipe in the rubber entirely upwards
• Fill the humidifier in the test room manually, until the water level is 1 cm
below the cover grid.
Attention: In case of a lack of water, the humidifier will be switched off automatically.
Operation
• Adjust the desired relative humidity (f. ex. 90 % r. h.) at
the hygrostat being located on the back wall of the
test room by means of the turning knob
• Switch-on yellow rocker switch "socket". The pilot lamp
will light permanently
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40 60 80 10020
rel.H.[%]
50
40
30
20
10
0
T [ C]o
Maintenance and Cleaning
During the whole operation time, the air humidifier requires least maintenance. This evaporative system
dissipates only pure water steam to the room air, and not desired residuals in the air, as lime, mineral salts etc.
are retained in the water vessel. For that reason, evacuate the vessel weekly and rinse it with clear water.
Depending on lime content of the water, the air humidifier should be decalcified every second month using
our RUMED quick antiliming agent.
For antiliming unplug the plug out of the socket. A detailed description for antiliming will be delivered with our
quick antiliming agent. When using other antiliming agents, observe the prescriptions of the respective product.
Water softeners or antiliming agents should not be continuoulsy added to the water, but should only be used
for antilimimg of the unit.
Do not place the unit into water or expose it to running water. However, the water vessel may be rinsed with
a shower.
11.2 Ultrasonic Humdification
General
The ultrasonic humidification is generating mist by means of
ultrasonic waves acting upon demineralized water, and
thus the air is humidified. The temperature/humidity diagram
in the margin shows the working range in combination with
the function dehumidification.
Connect the humidifier by means of the furnished hose to a
water supply with a conductivity up to 5 S/cm and a
conduit pressure of 0,2 - 5,0 bar.
If connection to a demineralized water supply is not
possible, the demineralized water can be fed by means of
a ventilating valve from a supply vessel being suspended
approx. 1 m above the water level of the humidifier.
The water level in the humidifier is checked by a float
switch. In case of a decrease of the water level, water will
be refilled by a solenoid valve. A small part of the circulating air flow is led continuously through the mist
chamber of the humidifier to feed humidity to the test room when demanded by the controller. Units with
temperatures below 0 °C are equiped with an additional blower to supply ambient air to the humidifier, thus
avoiding freezing of the humidifier.
When exceeding 52 °C humidification is switched off by means of an alarm of the temperature controller. If
not, the electronics being cooled by the water of the humidifier would be superheated. The max. atomization
capacity is approx. 0,5 l/hour.
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% rel.F.
Befeuchtung Entfeuchtung
DehumidificationHumidification
Humidification ON
Decrease value
Dehumidification ON
Increase value
Selector key
Setpoint
Actual value
Humidity Controller
The adjusted humidity is kept constant by an
electronic digital controller.
The capacitive humidity sensor consists of a
dielectric, the relative permittivity of which is
varying proport ional ly to the relative
humidity. The humidity controller converts this
electric variable into values of relative
humidity and indicates the values on the
display. The humidity sensor is almost
maintenance-free and long-lasting. A
calibration device can be sold or rented.
Setpoint control
Actual value and setpoint are displayed
simultaneously on two different digital
displays being located upon another. The
upper digits indicate the actual value, the
lower digits the setpoint. The setpoint value
can be decreased or increased by pressing
the keys and .
Programme Control
The programming of the humidity controller and the programme timer with the option alternating humidity, can
be drawn from chapter 7.3, Programme Control.
Type of water supply Connection Pressure Conductivity
Connection to proper supply circuit with
demineralized water3/4" 0,2 - 5,0 bar 5 S/cm
Connection to tap water supply with ion
exchanger connected in series3/4" 0,2 - 5,0 bar
Connection to ventilated supply vessel with
demineralized water3/4"
min. 1 m
water column5 S/cm
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Ion exchanger
Intake tap water
Intake demi-neralized water
Conductivitymeasuring head
Mist supplyto the test room
Ultrasonic humidifier
Either recirculationof the air out of thetest room oradditional blower forexternal fresh air
Operation of the Different Types of Water Supply
☛ Operation with Demineralized Tap Water
Connect water intake of the humidifier with the
furnished hose to a demineralized water supply
according to DVGW (German Supply Company for
Gas/Water) which can be shut-off.
☛ Operation with Demineralized Water from a
Supply Vessel
Suspend a ventilated supply vessel (recommended
volume: 10 liters) minimum 1 m above the level of
the humidifier and connect it to the water intake of
the humidifier by means of the furnished hose.
☛ Operation with Tap Water
It is not possible to operate the humidifier with
directly supplied tap water. If only tap water is
available, the water must be supplied through an
ion exchanger connected in series. Connect water
intake of the ion exchanger with the furnished hose to a tap water supply according to DVGW (avoiding reflux)
which can be shut-off.
Operation
When the humidification is switched-on by means of the green switch, the humidity controller will run a self-test.
The water quality is monitored by means of a conductivity head and is displayed by means of the LED
(light-emitting diode) being located left of the green switch.
Colour of the LED Operating state Water Quality (Conductivity)
White (LED off) Normal state less than 5 S/cm
Green Pre-alarm between 5 and 20 S/cm
Red Alarm state and automatic cut-off more than 20 S/cm
In case of a conductivity of more than 20 S/cm, the humidifier will be cut-off automatically avoiding damage
of the oscillator (transducer) and soiling of the test room by mineral deposits.
When the LED is lighting red at the initial start, rinse the hoses, manifolds and the humidifier vessel from deposits
which may exist from production process.
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Rinsing of the Humidifier and the Hoses before Initial Start or
After Erroneous Operation with Tap Water
• Rinse with switched-on unit
• Loosen hose clamp of the right hose (OUT) on the humidifier and pull off hose
• Suck water out of the water vessel through this opening
• The unit will refill automatically demineralized water
• Repeat procedure until LED is lighting green (only pre-alarm)
• Reattach hose and tighten hose clamp
After some days (dependent on the water consumption and the dilution resulting from), the green LED will be
switched-off.
Replacement of the Tube Filter in the Ion Exchanger
When the tube filter of the ion exchanger is spent (when the red LED is lighting at
the latest, rather before) it must be replaced.
• Close the stop valve of the water supply of the humidifier and loosen hose from
the cock to reduce the overpressure
• Place vessel or bucket as collecting basin below the ion exchanger, as
undetermined water might penetrate when replacing the tube filter
• Loosen the lower, blue water vessel of the ion exchanger by turning it clockwise
(☛ water may penetrate)
• Evacuate water vessel and withdraw tube filter out of the water vessel
• Insert new tube filter in the same position (☛ the end with the packing ring aims
upwards)
• Carefully screw-on (fingertight) blue water vessel (without force), avoiding
jamming
• Reconnect water supply hose
• Open stop valve and check tightness of the water vessel screwing
(☛if leaky, replace O-ring in the thread of the blue water vessel)
• Order spare tube filter! Spent tube filters are taken back for regular recycling free
of charge, on the condition that they will be sent to the works in D-Laatzen freight
prepaid.
11.3 Dehumidification
Dehumidification is generated by falling below the dewpoint. If the humidity controller demands
dehumidification power, refrigerant is led to the lower part of the heat exchanger. When falling below the
dewpoint, the water vapour in the air condenses. The precipitated water drops off from the heat exchanger
lamellae and leaves the test room through the condensate drain.
The orange switch below the humidity controller switches on the dehumidification and the orange pilot lamp
in the switch will light up. If the value being adjusted at the humidity controller is exceeded by more than the
switching hysteresis, the dehumidification system is automatically switched-on and the pilot lamp
"Dehumidification ON" in the controller will light up.
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Do not remove hair-frost or icing with sharp objects,as the evaporator might be damaged!
12 Service and Maintenance
Defrosting
• Models 3001, 3101 and 3201: The dew water is collected in the evaporation vessel where it automatically
evaporates. Observe, that the dew water can flow off unhindered through the drain at the back wall of
the cooling chamber. If required, puncture the drain with a peak object.
• Models 3301, 3401, 3501 and 3601: Place a condensate collector below the floor drain which is to be
emptied if necessary (3601: 2 condensat collectors ).
• Continuous operation with coldest thermostat adjustments might cause icing or hair-frost on the evaporator.
Then a periodical defrosting of the evaporator is necessary. For this purpose, set temperature controller to
+20 °C and remove the specimen.
After having defrosted, clean the unit and adjust the temperature controller onto the desired temperature.
Cleaning
It is recommended to clean the unit regularly.
For supply isolation of the unit, unplug the mains plug from the socket or switch-off (remove) the fuses
connected in series!
Clean the test room and the exterior housing with tepid water and a scavenger. Rinse with clear water and dry
well.
Do not use cleansing agents comprising sand or solvents!
Cooling Machine
To obtain a high output with a low energy consumption at the same time, it is necessary to clean the heat
exchanger from time to time from dust particles. In rooms being less dustladen a cleaning once or twice a year
is sufficient.
• Unplug mains plug from the socket!
• Clean heat exchanger (black wire grating) at the back-side of the unit with a pencil, hand-brush or a
vacuum-cleaner. Care should be taken that no cables are torn off or tubes are bended or cracked.
Putting out of Operation
If the unit shall be out of operation for a longer period, the mains plug is to be unplugged from the socket or
the fuses connected in series are to be switched-off (removed)! Furthermore, the door should remain open
during the out of operation period to avoid any odours.